跨尺度分析揭示了大盆地北部牧场一年生和多年生植被的交互预测因素。

IF 4.3 2区 环境科学与生态学 Q1 ECOLOGY
Madelon F. Case, Kirk W. Davies, Chad S. Boyd, Lina Aoyama, Joanna Merson, Calvin Penkauskas, Lauren M. Hallett
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引用次数: 0

摘要

外来一年生草入侵是对北美西部鼠尾草生态系统完整性的广泛威胁。尽管已经确定了许多预测一年生草流行和本地多年生植被的因素,但对于区域尺度和地方尺度的预测因素如何相互作用以决定植被异质性,以及植被和放牧牛群之间的关联如何随环境背景而变化,仍然存在很大的不确定性。在此,我们在俄勒冈州和爱达荷州的已烧毁和未烧毁的公共放牧地进行了为期一个季度的区域性实地调查,并根据牧场的地势和距离水源的远近对地块进行了分层,以捕捉环境背景和放牧强度的变化。我们分析了区域尺度和地方尺度的一年生草、多年生草和灌木覆盖模式,并研究了地块尺度上的变化在多大程度上取决于牧场尺度上对场地有利性的预测。一年生草在燃烧过和未燃烧过的地点都很普遍,这与一年生草取决于火灾的假设相反,而且在海拔较低、温度较高的地区以及当地较温暖的山坡上更为常见。牧场的放牧压力与温度相互影响,在温度较高时,一年生草覆盖率与放牧压力呈正相关,而在温度较低时,则与放牧压力呈负相关。这表明,牧场温度和放牧与年草丰度之间的关系是复杂的,并取决于具体情况,但这种关系的因果关系值得进一步研究。在牧场内的地块水平上,一年生草的覆盖率并不随放牧指标的变化而变化,但多年生草的覆盖率却有变化;例如,在靠近水源的地方,多年生草的覆盖率较低,但在牧场内粪便数量较多的地方,多年生草的覆盖率较高,这表明对这两种放牧代用指标的解释是截然不同的。对于预测生态系统对温度变化的反应,我们发现牧场水平和地块水平的有利程度是相互影响的:在温度较低的斜坡上,多年生牧草的地块水平覆盖率较高,这种地形上的差异在区域内对多年生牧草较不利的牧场中最为明显。在这些日益受到入侵的生态系统中,了解跨尺度相互作用和植被对放牧的偶然反应背后的机制,对于在不断变化的世界中进行土地管理至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cross-scale analysis reveals interacting predictors of annual and perennial cover in Northern Great Basin rangelands

Exotic annual grass invasion is a widespread threat to the integrity of sagebrush ecosystems in Western North America. Although many predictors of annual grass prevalence and native perennial vegetation have been identified, there remains substantial uncertainty about how regional-scale and local-scale predictors interact to determine vegetation heterogeneity, and how associations between vegetation and cattle grazing vary with environmental context. Here, we conducted a regionally extensive, one-season field survey across burned and unburned, grazed, public lands in Oregon and Idaho, with plots stratified by aspect and distance to water within pastures to capture variation in environmental context and grazing intensity. We analyzed regional-scale and local-scale patterns of annual grass, perennial grass, and shrub cover, and examined to what extent plot-level variation was contingent on pasture-level predictions of site favorability. Annual grasses were widespread at burned and unburned sites alike, contrary to assumptions of annual grasses depending on fire, and more common at lower elevations and higher temperatures regionally, as well as on warmer slopes locally. Pasture-level grazing pressure interacted with temperature such that annual grass cover was associated positively with grazing pressure at higher temperatures but associated negatively with grazing pressure at lower temperatures. This suggests that pasture-level temperature and grazing relationships with annual grass abundance are complex and context dependent, although the causality of this relationship deserves further examination. At the plot-level within pastures, annual grass cover did not vary with grazing metrics, but perennial cover did; perennial grasses, for example, had lower cover closer to water sources, but higher cover at higher dung counts within a pasture, suggesting contrasting interpretations of these two grazing proxies. Importantly for predictions of ecosystem response to temperature change, we found that pasture-level and plot-level favorability interacted: perennial grasses had a higher plot-level cover on cooler slopes, and this difference across topography was starkest in pastures that were less favorable for perennial grasses regionally. Understanding the mechanisms behind cross-scale interactions and contingent responses of vegetation to grazing in these increasingly invaded ecosystems will be critical to land management in a changing world.

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来源期刊
Ecological Applications
Ecological Applications 环境科学-环境科学
CiteScore
9.50
自引率
2.00%
发文量
268
审稿时长
6 months
期刊介绍: The pages of Ecological Applications are open to research and discussion papers that integrate ecological science and concepts with their application and implications. Of special interest are papers that develop the basic scientific principles on which environmental decision-making should rest, and those that discuss the application of ecological concepts to environmental problem solving, policy, and management. Papers that deal explicitly with policy matters are welcome. Interdisciplinary approaches are encouraged, as are short communications on emerging environmental challenges.
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